Patent application number | Description | Published |
20120015160 | PROCESS FOR PRODUCING POLYMER MEMBER AND POLYMER MEMBER - Provided is a polymer member that demands no volatile component such as solvent during production, in which distribution of its immiscible material is controlled. | 01-19-2012 |
20120244293 | METHOD FOR PRODUCING POLYMER SHEET HAVING THREE-DIMENSIONAL PATTERN ON SURFACE - Provided is a method for simply producing a polymer sheet having a three-dimensional pattern on surface. The method produces such a polymer sheet having a three-dimensional pattern on surface by applying a polymerizable composition to one surface of a polymer sheet and allowing the surface to have a three-dimensionally altered shape; and thereafter performing polymerization/curing to form a three-dimensional pattern on the surface of the polymer sheet. The polymerizable composition includes a monomer mixture including at least one polymerizable monomer absorbable by the polymer sheet, or a partial polymer of the monomer mixture as an essential component. | 09-27-2012 |
20130040131 | FLAME-RETARDANT POLYMER MEMBER, FLAME-RETARDANT ARTICLE, AND FLAME-RETARDING METHOD - Provided is a flame-retardant member having flexibility and a high degree of flame retardancy. A flame-retardant polymer member of the present invention is a flame-retardant polymer member having a polymer layer (B) and a flame-retardant layer (A) on at least one surface of the polymer layer (B), in which the flame-retardant layer (A) is a layer containing a layered inorganic compound (f) in a polymer (X). | 02-14-2013 |
20130115424 | PROCESS FOR PRODUCING POLYMER MEMBER WITH RUGGED SURFACE STRUCTURE, AND POLYMER MEMBER - The purpose of the present invention is to provide a process for polymer member production in which a rugged surface structure is easy to control, and a polymer member obtained by the process. This process for producing a polymer member ( | 05-09-2013 |
20130141907 | LIGHT DIFFUSING FLAME-RESISTANT COMPOSITE MEMBER - There is provided a light diffusing flame-resistant composite member which has both flame resistance and flexibility and has excellent light diffusibility. The light diffusing flame-resistant composite member of the present invention includes a glass fiber sheet and a condensation-reactive silicone resin, wherein at least one surface of the glass fiber sheet is coated with the condensation-reactive silicone resin, or the glass fiber sheet is impregnated with the condensation-reactive silicone resin, and wherein the composite member has a total light transmittance of 60% or more and a haze value of 80% or more. The condensation-reactive silicone resin may be an inorganic oxide particle-containing condensation-reactive silicone resin comprising a crosslinking structure in which inorganic oxide particles dispersed in a polysiloxane resin having a condensation-reactive group is crosslinked with the polysiloxane resin by chemical bonds. | 06-06-2013 |
20130189516 | FLAME-RETARDANT POLYMER MEMBER WITH ENVIRONMENTAL RESISTANCE AND FLAME-RETARDANT POLYMER MEMBER WITH HYGIENIC PROPERTY - The present invention aims to provide a flame-retardant member having environment-resistant functionality or hygienic functionality, flexibility, and a high degree of flame retardancy. An environment-resistant functional flame-retardant polymer member of the present invention is an environment-resistant functional flame-retardant polymer member including a polymer layer (B), a flame-retardant layer (A), and an environment-resistant functional layer (L) in the stated order, in which the flame-retardant layer (A) is a layer containing a layered inorganic compound (f) in a polymer. A hygienic functional flame-retardant polymer member of the present invention is a hygienic functional flame-retardant polymer member including a polymer layer (B), a flame-retardant layer (A), and a hygienic functional layer (L) in the stated order, in which the flame-retardant layer (A) is a layer containing a layered inorganic compound (f) in a polymer. | 07-25-2013 |
20130196150 | PHYSICALLY FUNCTIONAL FLAME-RETARDANT POLYMER MEMBER AND CHEMICALLY FUNCTIONAL FLAME-RETARDANT POLYMER MEMBER - Provided is a flame-retardant member having physical functionality or chemical functionality, flexibility, and a high level of flame retardancy. The physically functional flame-retardant polymer member includes a polymer layer (B), a flame-retardant layer (A), and a physically functional layer (L) in the stated order, in which the flame-retardant layer (A) includes a layer containing a layered inorganic compound (f) in a polymer. The chemically functional flame-retardant polymer member includes a polymer layer (B), a flame-retardant layer (A), and a chemically functional layer (L) in the stated order, in which the flame-retardant layer (A) includes a layer containing a layered inorganic compound (f) in a polymer. | 08-01-2013 |
20130210301 | COMPOSITE SHEET - Provided is a novel composite sheet, including a substrate and a foamed layer which is provided on at least one surface side of the substrate, at a low cost in an environment-friendly manner, in which the composite sheet includes a foamed layer having a uniform fine-cell structure, the average pore diameter of each of spherical cells of the foamed layer can be precisely controlled to a small one, the control range of the density of the foamed layer is wide, the control range of the thickness of the foamed layer is wide, and the composite sheet can express an excellent mechanical strength and is preferably excellent in toughness and heat resistance. The composite sheet includes a substrate; and a foamed layer which is provided on at least one surface side of the substrate, in which: the foamed layer has spherical cells, an average pore diameter of each of the spherical cells being less than 30 μm; and the foamed layer has a density of 0.1 g/cm | 08-15-2013 |
20130210303 | HIGHLY FLAME-RETARDANT POLYMER MEMBER, FLAME-RETARDANT ARTICLE, AND FLAME-RETARDING METHOD - Provided is a flame-retardant member having transparency, flexibility, and a high level of flame retardancy. A highly flame-retardant polymer member of the present invention is a highly flame-retardant polymer member including a polymer layer (B), an inorganic base material (L), and a flame-retardant layer (A) in the stated order, in which the flame-retardant layer (A) is a layer containing a layered inorganic compound (f) in a polymer. | 08-15-2013 |
20130216814 | W/O EMULSION, FOAM, AND FUNCTIONAL FOAM - Provided is a W/O emulsion, including a continuous oil phase component and an aqueous phase component immiscible with the continuous oil phase component, in which: the continuous oil phase component includes a hydrophilic polyurethane-based polymer and an ethylenically unsaturated monomer; the hydrophilic polyurethane-based polymer includes a polyoxyethylene polyoxypropylene unit derived from polyoxyethylene polyoxypropylene glycol; and the polyoxyethylene polyoxypropylene unit includes 5 wt % to 25 wt % of polyoxyethylene. Also provided is a foam, including a hydrophilic polyurethane-based polymer, in which: the foam has an open-cell structure in which through-holes are present between adjacent spherical cells; the spherical cells each have an average pore diameter of less than 20 μm; the through-holes each have an average pore diameter of 5 μm or less; and the foam has surface openings each having an average pore diameter of 20 μm or less in a surface thereof. | 08-22-2013 |
20130224467 | FOAM, PRODUCTION METHOD FOR FOAM, AND FUNCTIONAL FOAM - Provided are a novel foam which has a uniform fine-cell structure and is excellent in toughness and heat resistance, and a production method therefor. Also provided is a functional foam which includes the above-mentioned foam and has imparted thereto various functions. The foam includes spherical cells, in which: the spherical cells each have an average pore diameter of less than 20 μm; the foam has a density of 0.15 g/cm | 08-29-2013 |
20130251987 | POLYMER MEMBER HAVING RESISTANCE TO CIGARETTE BURNS, ARTICLE WITH RESISTANCE TO CIGARETTE BURNS, AND METHOD FOR PROVIDING RESISTANCE TO CIGARETTE BURNS - Provided is a member which is excellent in transparency and flexibility, and can impart a resistance to cigarette burns to various adherends by being attached to the various adherends. Specifically provided is a polymer member with a resistance to cigarette burns, including a polymer layer, in which: the polymer layer contains a layered inorganic compound (f) in a polymer (X); and the polymer (X) contains a cross-linked polymer. | 09-26-2013 |
20130309482 | THERMALLY FUNCTIONAL FLAME-RETARDANT POLYMER MEMBER - Provided is a flame-retardant member having thermal functionality, flexibility, and a high level of flame retardancy. The thermally functional flame-retardant polymer member includes a polymer layer (B), a flame-retardant layer (A), and a thermally functional layer (L) in the stated order, in which the flame-retardant layer (A) includes a layer containing a layered inorganic compound (f) in a polymer. | 11-21-2013 |
20130309487 | PRESSURE-SENSITIVE ADHESIVE AGENT CONVERTIBLE INTO ADHESIVE AGENT - Provided is a pressure-sensitive adhesive agent convertible into an adhesive agent, which allows adherends to be instantly fixed to each other, allows the adherends to be reattached to each other, is excellent in processability such as being able to be cut into a sheet shape, and is not peeled from the adherends even when exposed to a high-temperature atmosphere such as one in a fire. The pressure-sensitive adhesive agent convertible into an adhesive agent has pressure-sensitive adhesive property before being sintered, and has adhesive property after being sintered. | 11-21-2013 |
20140004331 | SHATTERPROOFING MEMBER WITH HARDENABLE PRESSURE-SENSITIVE ADHESIVE LAYER | 01-02-2014 |
20140135417 | TRANSPARENT ADHESIVE/BONDING AGENT AND HIGH-TEMPERATURE MAINTAINING STICKY AGENT - Provided is a transparent pressure-sensitive adhesive agent convertible into an adhesive agent that allows adherends to be instantly fixed to each other, allows the adherends to be reattached to each other, is excellent in processability such as being able to be cut into a sheet shape, is not peeled from the adherends even when exposed to a high-temperature atmosphere such as one in a fire, and has such transparency as to hardly impair the designs of the adherends. The transparent pressure-sensitive adhesive agent convertible into an adhesive agent has pressure-sensitive adhesive property before being sintered, and has adhesive property after being sintered. | 05-15-2014 |
20140287225 | TRANSPARENT HEAT-RESISTANT FLAME-RETARDANT FILM - The present invention provides a transparent heat-resistant non-flammable film that has high transparency, heat resistance, and flame retardancy. The transparent heat-resistant non-flammable film according to the present invention includes a transparent heat-resistant protective layer comprising a polysiloxane resin containing a particulate inorganic oxide as a crosslinking agent on at least one surface of a transparent amorphous thermoplastic resin film having a heat distortion temperature of 250° C. or less. The transparent heat-resistant protective layer preferably has a refractive index in the range of 1.40 to 1.43. The transparent heat-resistant protective layer preferably has a thickness in the range of 1 to 100 μm. | 09-25-2014 |
20140301090 | FLAME-RESISTANT COMPOSITE MEMBER - There is provided a flame-resistant composite member exhibiting remarkably high flame resistance even if having a flammable base material. The flame-resistant composite member according to the present invention has a film formed of a silicone resin composition (C) containing at least an inorganic oxide particle-containing condensation-reactive silicone resin on at least one surface of a base material. The inorganic oxide particle-containing condensation-reactive silicone resin may be a condensation-reactive silicone resin (A) including a crosslinked structural body wherein an inorganic oxide particle dispersed in a polysiloxane resin having a condensation-reactive group and the polysiloxane resin are crosslinked through a chemical bond. The silicone resin composition (C) may contain the condensation-reactive silicone resin (A) and an inorganic particle (B). | 10-09-2014 |